A vessel with a suspension system for a handle assembly are described. For example, an apparatus can include: a hollow vessel having a body which includes one or more walls extending upwardly from a base portion to form an opening in fluid communication with an interior space of the body; a handle assembly movably coupled to the body, the handle assembly configured to slide outwardly or inwardly with respect to the vessel; and a flexible suspension member coupled to the body and to the handle assembly, the suspension member configured to at least partially suspend a weight of the vessel. The suspension member can stretch in response to outward motion of the handle assembly with respect to the vessel and compress in response to inward motion of the handle assembly with respect to the vessel.
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1. An apparatus comprising:
a hollow vessel having a body which includes one or more walls extending upwardly from a base portion to form an opening in fluid communication with an interior space of the body;
a handle assembly movably coupled to the body, the handle assembly configured to slide outwardly or inwardly with respect to the vessel, the handle assembly comprising a first arm, a second arm, and a hollow core section configured to be disposed between the first and second arms and traverse the top of the vessel; and
a flexible suspension member coupled to the body and to the handle assembly, the suspension member configured to at least partially suspend a weight of the vessel,
wherein the suspension member is configured to stretch in response to outward motion of the handle assembly with respect to the vessel and compress in response to inward motion of the handle assembly with respect to the vessel, and
wherein the suspension member is configured to pass through an interior of the hollow core section.
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17. The apparatus of
an additional handle assembly movably coupled to the body, the additional handle assembly disposed on an opposite side of the body as the handle assembly; and
an additional flexible suspension member coupled to the body and to the additional handle assembly, the additional suspension member configured to suspend a portion of the additional handle assembly such that the additional suspension member stretches in response to outward motion of the additional handle assembly with respect to the vessel and compresses in response to inward motion of the additional handle assembly with respect to the vessel.
18. The apparatus of
19. The apparatus of
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The present application is a non-provisional application of and claims priority under 35 U.S.C. § 119 to U.S. Provisional Application No. 62/811,013, entitled “Vessel With Suspension System” and filed on Feb. 27, 2019, the entirety of which is incorporated by reference herein.
The present disclosure relates generally to vessels, and more particularly, to a vessel with a suspension system.
Many vessels designed for food or beverage storage, such as coolers, ice chests, jugs, bottles, and other similar containers, are equipped with handles to enable users to readily transport the vessel to a desired location. For instance, various conventional vessels with handle assemblies are illustrated in
Upon loading the aforementioned vessels with food, beverages, ice, and the like, the vessels can become heavy. Consequently, carrying a loaded vessel by its handle(s) for a prolonged period of time can result in significant strain in the user's arms, neck, and back.
The present disclosure provides a suspension system to support a vessel. The vessel can be equipped with a handle assembly to allow for transportation of the vessel. The vessel can further include a flexible suspension member coupled to the vessel and the handle assembly. By stretching and compressing in response to motion of the handle assembly during transportation, the suspension member can minimize vertical travel of heavy vessels typically induced by walking or running movements, resulting in less physical strain on the user.
In accordance with embodiments of the present disclosure, an apparatus can include: a hollow vessel having a body which includes one or more walls extending upwardly from a base portion to form an opening in fluid communication with an interior space of the body; a handle assembly movably coupled to the body, the handle assembly configured to slide outwardly or inwardly with respect to the vessel; and a flexible suspension member coupled to the body and to the handle assembly, the suspension member configured to at least partially suspend a weight of the vessel. The suspension member can stretch in response to outward motion of the handle assembly with respect to the vessel and compress in response to inward motion of the handle assembly with respect to the vessel.
The suspension member can be configured to suspend the weight of the vessel when an upward force with respect to the vessel is exerted on the handle assembly.
The suspension member can configured to alternately stretch and compress in response to an upward force exerted on the handle assembly such that the handle assembly vertically oscillates independent of the vessel.
The suspension member can be coupled indirectly to the body via the handle assembly.
The suspension member can be disposed so as to not come into contact with the body.
The handle assembly can include a lower handle portion mounted to the body and an upper handle portion slidably coupled to the lower handle portion.
The upper handle portion can be configured to slide outwardly or inwardly with respect to the lower handle portion.
The suspension member can be configured to restrict a distance which the upper handle portion slides outwardly with respect to the lower handle portion.
The suspension member can be disposed so as to prevent uncoupling of the upper handle portion and the lower handle portion.
The lower handle portion and the upper handle portion can be structurally independent of each other.
The upper handle portion can include a lower handle receiving portion within which the lower handle portion is disposed.
The upper handle portion can be coupled indirectly to the body via the lower handle portion, such that the upper handle portion and the body do not contact each other.
The suspension member can be coupled indirectly to the body via the lower handle portion, such that the suspension member and the body do not contact each other.
The lower handle portion can be rotatably mounted to the body via a lower handle mounting member, a portion of the lower handle mounting member being cylindrically shaped.
The handle assembly can be formed with a hollow core section, and the suspension member is configured to pass through an interior of the core section.
The handle assembly can be formed with a suspension member attachment portion disposed at or proximate to a location at which the handle assembly is mounted to the body, and the suspension member can be attached to the handle assembly via the suspension member attachment portion.
The suspension member attachment portion can include a hook-shaped portion having a downwardly extending flange with respect to the vessel, and the suspension member is attached to the handle assembly via the hook-shaped portion.
The apparatus can further include: an additional handle assembly movably coupled to the body, the additional handle assembly disposed on an opposite side of the body as the handle assembly; and an additional flexible suspension member coupled to the body and to the additional handle assembly, the additional suspension member configured to suspend a portion of the additional handle assembly such that the additional suspension member stretches in response to outward motion of the additional handle assembly with respect to the vessel and compresses in response to inward motion of the additional handle assembly with respect to the vessel.
The suspension member can be at least partially composed of elastic.
The suspension member can include a plurality of elastic strands.
The embodiments herein may be better understood by referring to the following description in conjunction with the accompanying drawings in which like reference numerals indicate identically or functionally similar elements, of which:
It should be understood that the above-referenced drawings are not necessarily to scale, presenting a somewhat simplified representation of various preferred features illustrative of the basic principles of the disclosure. The specific design features of the present disclosure, including, for example, specific dimensions, orientations, locations, and shapes, will be determined in part by the particular intended application and use environment.
Hereinafter, embodiments of the present disclosure will be described in detail with reference to the accompanying drawings. As those skilled in the art would realize, the described embodiments may be modified in various different ways, all without departing from the spirit or scope of the present disclosure. Further, throughout the specification, like reference numerals refer to like elements.
The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the disclosure. As used herein, the singular forms “a,” “an,” and “the” are intended to include the plural forms as well, unless the context clearly indicates otherwise. It will be further understood that the terms “comprises” and/or “comprising,” when used in this specification, specify the presence of stated features, integers, steps, operations, elements, and/or components, but do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, and/or groups thereof. As used herein, the term “and/or” includes any and all combinations of one or more of the associated listed items.
Referring now to embodiments of the present disclosure, the suspension system discussed herein can include a flexible suspension member capable of providing support for a handle assembly of a vessel. The suspension member can couple at least a portion of the handle assembly to the vessel. The suspension member can be formed with various flexible materials, such as elastic or a similar material capable of being stretched and compressed. Due to the physical properties of the suspension member, the handle assembly can oscillate vertically independent of the vessel, while vertical travel of the vessel itself is minimized, as the user grips the handle of the handle assembly to carry the vessel. Physical strain on the user's body can therefore be reduced by minimizing downward forces caused by the weight of the vessel.
The vessel 200 can be made of various materials, and is not limited to any particular material or combination of materials. In one example, the body 201, one or more walls 202, and base portion 203, or any portion thereof, can be formed of any suitable material, such as plastic or combinations of plastic including, but not limited to, polypropylene (PP), polyethylene terephthalate (PET), high-density polyethylene, low-density polyethylene, vinyl, polystyrene, or the like. The vessel 200 can be constructed using various techniques known in the art including, but not limited to, injection molding, rotational molding, blow molding, and the like.
The vessel 200 can be equipped with a handle assembly 210 to enable a user to carry the vessel 200 to a desired location. The handle assembly 210 can be movably coupled to the body 201. In some embodiments, the handle assembly 210 can be rotatably coupled to the body 201, allowing the handle assembly 210 to rotate about an axis, as described in greater detail below with respect to
In some embodiments, the vessel 200 can include a single handle assembly 210, as shown in
In other embodiments, the vessel 200 can include two handle assemblies 210 disposed at opposite sides of the body 201. In such case, the dual handle assemblies 210 can be designed to operate in the same manner as the single handle assembly 210. Moreover, each of the dual handle assemblies 210 can be coupled to a suspension member 220 (
The handle assembly 210 can be further configured to slide inwardly or outwardly with respect to the vessel 200. In this regard, the handle assembly 210 can include a lower handle portion 211 (
In detail,
In some embodiments, the lower handle portion 211 can be rotatably mounted to the body 201, allowing the handle assembly 210 to rotate about an axis A. For example, the lower handle portion 211 can rotate about axis A, thereby enabling rotation of the handle assembly 210, between, at least, the engaged position and the stowed position described above. The lower handle portion 211 can be rotatably mounted to the body 201 via a lower handle mounting member 215 configured to allow rotation of the lower handle portion 211. To this end, a portion of the lower handle mounting member 215 can be cylindrically shaped. For example, the lower handle mounting member 215 can include, but is not limited to, a screw, a bolt, a pin, a snap, or the like. The lower handle mounting member 215 can be structurally integral with the body 201 (i.e., formed with the same material as an extension of the body 201), or structurally independent of the body 201. The lower handle mounting member 215 can be inserted into a correspondingly sized opening formed in the lower handle portion 211, such that the lower handle portion 211 can pivot about the lower handle mounting member 215.
Meanwhile, the upper handle portion 212 can be configured to slide outwardly or inwardly with respect to the lower handle portion 211. In detail, the upper handle portion 212 can be formed with a lower handle receiving portion 216 within which the lower handle portion 211 is disposed. The lower handle portion 211 can be formed with a lower handle extension portion 217 disposed inside of the lower handle receiving portion 216 of the upper handle portion 212. The upper handle portion 212 can thus slide over the lower handle extension portion 217 of the lower handle portion 211 in an outward (i.e., away from the lower handle portion 211) or an inward (i.e., toward the lower handle portion 211) direction.
The inward sliding motion of the upper handle portion 212 can terminate when a portion of the upper handle portion 212 abuts a portion of the lower handle portion 211. The lower and upper handle portions 211 and 212 can be formed with one or more features acting as stops to limit the inward sliding motion of the upper handle portion 212. Conversely, the lower and upper handle portions 211 and 212 can be formed such that the outward sliding motion of the upper handle portion 212 is not limited by the lower handle portion 211. Instead, the suspension member 220 (
As shown in
In order to prevent the upper handle portion 212 from separating or decoupling from the lower handle portion 211 when the upper handle portion 212 slides away from the lower handle portion 211, as well as to support a weight of the vessel 200 and its contents when an upward force (“carrying force”) is exerted on the handle assembly 210 (
As shown in
The suspension member 220 can couple to the lower handle portion 211 and the upper handle portion 212 in various ways, while allowing the aforementioned outward and inward motion of the upper handle portion 212 within the range of stretch of the suspension member 220. Firstly, referring again to
The suspension member attachment portion 230 can be formed in various ways suitable for receiving and retaining the suspension member 220 to the lower handle portion 211. In some embodiments, the suspension member attachment portion 230 can include a hook-shaped portion having a downwardly extending flange with respect to the vessel 200. The suspension member 220 can be attached to the handle assembly 210 via the hook-shaped portion. In some cases, the suspension member attachment portion 230 can be structurally integral with the lower handle portion 211 (i.e., formed with the same material as an extension of the lower handle portion 211). In other cases, the suspension member attachment portion 230 can be structurally independent of the lower handle portion 211 and connect or attach to the outer surface of the lower handle portion 211.
The suspension member attachment portion 230 can include alternative features suitable for attaching to the suspension member 220. As an example, the suspension member attachment portion 230 can be formed with a passage through which the suspension member 220 passes. Along these lines, the suspension member attachment portion 230 can be formed with features to trap the suspension member 220, and/or the suspension member 220 can be molded into the suspension member attachment portion 230. As another example, the suspension member attachment portion 230 can include hardware, such as a snap, a button, a clip, or the like, capable of affixing to the suspension member 220.
It is understood that the suspension member attachment portion 230 can be formed on both sides of the vessel 200. In this regard, the handle assembly 210 can include two lower handle portions 211 respectively disposed at opposite sides of the vessel 200. The suspension member attachment portion 230 can be disposed at each of the lower handle portions 211.
Secondly, the suspension member 220 can extend from its attachment location at the lower handle portion 211 to the upper handle portion 212, where the suspension member 220 can couple to the upper handle portion 212 in various ways. In some embodiments, the upper handle portion 212 can be formed with a hollow core section 214, as shown in
In such case, the suspension member 220 can extend upwardly from the suspension member attachment portion 230 on one side of the vessel 200 to the core section 214 of the upper handle portion 212, traverse the interior of the core section 214, and extend downwardly toward the suspension member attachment portion 230 disposed on the other side of the vessel 200. As a result, the suspension member 220 can allow the upper handle portion 212 to slide outwardly (away from the lower handle portion 211), but prevent decoupling of the upper handle portion 212 and the lower handle portion 211 by restricting the distance the upper handle portion 212 can slide outwardly.
The upper handle portion 212 can be formed with alternative features suitable for attaching to the suspension member 220, such that the suspension member 220 prevents decoupling of the upper handle portion 212 and the lower handle portion 211. As an example, the upper surface of the upper handle portion 212 can be formed with a recess configured to receive a portion of the suspension member 220 traversing the upper handle portion 212. As another example, instead of traversing the upper handle portion 212, dual suspension members 220 can attach directly to opposite ends of the upper handle portion 212. Such suspension members 220 can attach to the lower handle portion 211 in a manner described above, extend upwardly therefrom, and attach to opposite ends of the upper handle portion 212, respectively.
As further shown in
Operationally, the suspension member 220 can suspend a portion of the handle assembly 210, such that the suspension member 220 stretches in response to outward motion of the handle assembly 210 with respect to the vessel 200 and compresses in response to inward motion of the handle assembly 210 with respect to the vessel 200. To illustrate,
Conversely, as shown in
To illustrate,
In the present case, however, as the upper handle portion 212 repeatedly slides inwardly and outwardly with respect to the lower handle portion 211 in response to forces exerted on the handle assembly 210 resulting from the user 300 carrying the vessel 200, the elasticity of the suspension member 220 can permit the suspension member 220 to alternately stretch and compress, allowing the handle assembly 210 to vertically oscillate independent of the vessel 200. Consequently, the handle assembly 210 height can change (i.e., travel up and down), while the height of the vessel 200 can remain substantially the same, as shown in
The foregoing description has been directed to certain embodiments of the present disclosure. It will be apparent, however, that other variations and modifications may be made to the described embodiments, with the attainment of some or all of their advantages. Accordingly, this description is to be taken only by way of example and not to otherwise limit the scope of the embodiments herein. Therefore, it is the object of the appended claims to cover all such variations and modifications as come within the true spirit and scope of the embodiments herein.
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